通过X射线衍射线形分析表征了喷丸表面的组织结构,利用原位拉伸X射线衍射应力分析研究了TiB2/6351Al复合材料喷丸表面基体的力学行为.结果表明,喷丸后复合材料表面基体的屈服强度提高了26%,整体强度提高约28%,显微硬度提高50%以上.喷丸前、后复合材料基体承载系数分别为81%和83%,喷丸后的基体承载系数略有提高.喷丸表面基体的晶块尺寸及位错密度分别约51 nm和3.05×1014 m-2,晶块细化及位错密度增高是导致表面基体力学性能提高的主要原因.
参考文献
| [1] | LIU Longfei,DAI Lanhong,LING Zhong,YANG Guowei,Microstructure effects of SiCp particle-reinforced 6351Al matrix composites,Chinese Journal of Materials Research,16(3),238(2002)(刘龙飞,戴兰宏,凌中,杨国伟,SiCp/6351Al复合材料的微结构效应,材料研究学报,16(3),238(2002)) |
| [2] | MA Suyuan,CHEN Rui,HE Xiaochun,LI Jiabao,HAO Xuezhuo,Shot peening induced strengthening of the surface layer of martensite stainless steel 0Cr13Ni4Mo,Acta Metallurgica Sinica,41(1),28(2005)(马素媛,陈瑞,贺笑春,李家宝,郝学卓,0Cr13Ni4Mo马氏体不锈钢表层的喷丸强化,金属学报,41(1),28(2005)) |
| [3] | GAI Xiuying,LI Jiabao,KANG Zengqiao,WANG Zhongguang,Mechanical properties of shot peened surface for steel 60Mn,Acta Metallurgica Sinica,32(6),605(1996)(盖秀颖,李家宝,康增桥,王中光,60Mn钢喷丸表面的力学性能,金属学报,32(6),605(1996)) |
| [4] | LUAN Weizhi,JIANG Chuanhai,JI Vicent,CHEN Yanhua,WANG Haowei,Investigation for warm peening of TIB2/Al composite using X-ray diffraction,Materials Science and Engineering A,497,374(2008) |
| [5] | T.Ungár,A.Borbely,The effect of dislocation contrast on X-ray line broadening:A new approach to line profile analysis,Applied Physics Letters,69(21),3173(1996) |
| [6] | T.Ungár,S.Ott,P.G.Sanders,A.Borbely,J.R.Weertman,Dislocatins,grain size and planar faults in nanostructured copper determined by high resolution X-ray diffraction and a new procedure of peak profile analysis,Acta Materialia,46(10),3693(1998) |
| [7] | LI Jiabao,Determination of superficial stress-strain relationship with X-ray diffraction technique,Chinese Journal of Materials Research,12(3),287(1998)(李家宝,利用X射线衍射方法确定金属工艺表面,材料研究学报,12(3),287(1998)) |
| [8] | J.B.Li,F.Z.Liu,V.Ji,Influence of shot peening on superficial yield strength of spring steel in hard state,Surface Engineering,14(6),469(1998) |
| [9] | LI Jiabao,QIN Ming,LIU Fengzhi,SONG Xiaoping,GAI Xiuying,Characterization and investigation of softening decarburized layer of spring steel 60Si2Mn,Acta Metallurgica Sinica,36(3),287(2000)(李家宝,覃明,刘凤智,宋小平,盖秀颖,弹簧钢60Si2Mn脱碳层软化的表征与研究,金属学报,36(3),287(2000)) |
| [10] | M.Qin,V.Ji,Y.N.Wu,C.R.Chen,J.B.Li,Determination of proof stress and strain-hardening exponent for thin film with biaxial residual stresses by in-situ XRD stress analysis,Surface and Coatings Technology,192,139(2005) |
| [11] | GUO Rui,WANG Ronghua,Influence of shot peening strengthening on structure and properties of 25MoCr5 steel carburized gears,Transactions of Metal Heat Treatment,6,21(2001)(郭锐,王荣华,喷丸强化对25MoCr5钢渗碳齿轮组织及性能的影响,金属热处理,6,21(2001)) |
| [12] | B.Scholtes,E.Macherauch,Effects of Mechanical surface treatment on the strength properties of metallic materials,Z.Metallkd,77,322(1986) |
| [13] | JIANG Chuanhai,WANG Dezhun,YAO Zhongkai,Factor of actual bearing stress of matrix in SiCw/Al composites under loading stress,Acta Materiae Compositae Sinica,17(3),42(2000)(姜传海,王德尊,姚忠凯,加载情况下SiCw/Al复合材料中基体的实际承载系数,复合材料学报,17(3),42(2000)) |
| [14] | A R.Stokes,A numerical Fourier-analysis method for the correction of widths and shapes of lines on X-ray powder photographs,Proceeding of the Physical Society,61,382(1948) |
| [15] | T.Ungár,Dislocation densities,arrangements and character from X-ray diffraction experiments,Materials Science and Engineering A,309-310,14(2001) |
| [16] | T.Ungár,Microstructural parameters from X-ray diffraction peak broadening,Scripta Materialia,51,777(2004) |
| [17] | T.Ungár,I.Dragomir,A.Revesz,A.Borbely,The contrast factors of dislocations in cubic crystals:the dislocation model of strain anisotropy in practice,Journal of Applied Crystallography,32,992(1999) |
| [18] | M.Wilkens,The determination of density and distribution of dislocations in deformed single crystals from broadened X-ray diffraction profiles,Physics Status Solidi (A),2,359(1970) |
| [19] | F.J.Humphreys,P.N.Kalu,Dislocation-particle interactions during high temperature deformation of two-phase aluminum alloys,Acta Metallurgica et Materialia,35,2815(1987) |
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